DE488984C - Electrolytic production of alkali chlorates - Google Patents

Description

Electrolytic production of alkali chlorates During production from alkali chlorate after the usual electrolytic process becomes hydrogen released, which is contaminated by anodically evolved oxygen. As a result the danger of explosion caused by this generally had to be removed from the facility covered chlorate cells, although working in open cells because of the the inevitable development of dust and chlorine is a serious nuisance for the environment represents.

According to the present invention, the risk of explosion in chlorate cells is eliminated Certainly avoided if you use the evolving, oxygen-containing hydrogen constantly flushed away by supplying a suitable gas and the amount of flushing gas dimensioned in such a way that the oxygen content of the gas mixture is reliably above the explosion limit is pressed. As additional gases come z. B. Consider: nitrogen, carbon oxide, Carbon dioxide, hydrogen or mixtures of such gases, coke oven gas, generator gas etc., whereby care must be taken that their content of free oxygen as possible is low.

The process enables the beneficial utilization of the chlorate electrolysis developed hydrogen for industrial purposes, e.g. B. for the production of ammonia, for hydrogenation, etc., which was previously not easily possible. To this end becomes the hydrogen diluted by a purge gas selected according to the purpose of use on its oxygen content by known catalytic cleaning processes (e.g. by means of palladium, copper oxide, etc.).

For example, to carry out the invention one proceeds from that in an air liquefaction plant obtained pure nitrogen as flushing and diluting gas and measures it Amount such that the resulting hydrogen-nitrogen mixture after the catalytic Ways taking place removal of the oxygen in that required for the ammonia synthesis Molecular ratio stands. This mixture is, after removal of the oxygen, usually pure enough to be used directly for synthesis.

To obtain pure hydrogen, the purge gas used is pure or low-oxygen Applied hydrogen gas z. B. come from an alkali electrolysis or else can be traced back from the process itself. The addition of hydrogen will in this case dimensioned so that the oxygen content of the developed in the cell Gas is certainly reduced above the explosion limit; after that on catalytic By removing the oxygen, pure ones are obtained in a simple manner Hydrogen.

To maintain the catalytic reduction of oxygen As is known, there is an optimum which depends on the conditions of this reduction the oxygen content, which is always above the upper explosion limit. Man it is therefore advisable to dilute the oxygen-containing substance developed in the cell Hydrogen make to such an extent that the mixed gas has an oxygen content that corresponds approximately to this optimum.

Claims (3)

PATENT CLAIMS: = Utilization of the hydrogen developed during the electrolytic production of alkali chlorates while at the same time eliminating the risk of explosion, characterized in that the oxygen-containing hydrogen developed in covered chlorate cells is constantly brought above the upper explosion limit and out of the cell by purging the cell with oxygen-free or low-oxygen diluent gases Cell is removed, whereupon the oxygen is separated from the gas mixture by catalytic reduction in a known manner. z. Method according to claim i, characterized in that for the purpose of producing one for ammonia synthesis suitable gas mixture as the nitrogen diluent gas for the final mixture required ratio is added and the oxygen through the gas mixture catalytic reduction is removed in a known manner. 3. The method according to claim i, characterized in that for the purpose of producing pure hydrogen as a diluent gas pure or low-oxygen hydrogen is used and the oxygen of the gas mixture is deposited by catalytic reduction in a known manner.